Two-dimensional three-degree-of-freedom micro-motion platform structure for high-precision positioning and measurement

What is claimed is: 1. A two-dimensional three-degree-of-freedom micro-motion platform structure for high-precision positioning and measurement, comprising: a platform, a first flexible hinge, and a moving pair that is fastened on the platform through the first flexible hinge, wherein the platform is a cube-shaped platform; the moving pair comprises a first rigid beam, a second flexible hinge, a second rigid beam, a third flexible hinge, and an L-shaped rigid beam; the first rigid beam is connected to the second rigid beam through the second flexible hinge, the second rigid beam is connected to the L-shaped rigid beam through the third flexible hinge, and the L-shaped rigid beam is connected to the platform through the first flexible hinge; the first rigid beam is fastened on a rack through a fastening member; there are four moving pairs in total; each moving pair and one first flexible hinge constitute one branch hinge, and there are four branch hinges in total; the four branch hinges are respectively located on upper, lower, left, and right surfaces of the platform, and the four branch hinges drive, through the first flexible hinge, the platform to generate displacement in an x-direction and a y-direction. 2. The two-dimensional three-degree-of-freedom micro-motion platform structure for high-precision positioning and measurement according to claim 1 , wherein the four moving pairs are respectively distributed on upper, lower, left, and right directions of the platform, forces F 1 and F 3 are respectively applied to left and right moving pairs, to drive the platform to generate the displacement in the x-direction, F 1 drives to generate displacement in a positive x-direction, and F 3 drives to generate displacement in a negative x-direction; and forces F 4 and F 2 are respectively applied to upper and lower moving pairs, to generate the displacement in the y-direction, F 2 drives to generate displacement in a positive y-direction, and F 4 drives to generate displacement in a negative y-direction. 3. The two-dimensional three-degree-of-freedom micro-motion platform structure for high-precision positioning and measurement according to claim 2 , wherein the forces F 1 , F 2 , F 3 , and F 4 are generated by driving a piezoelectric driver, act on the lever end of the L-shaped rigid beam, and are perpendicular to the L-shaped rigid beam. 4. The two-dimensional three-degree-of-freedom micro-motion platform structure for high-precision positioning and measurement according to claim 1 , wherein two branch hinges opposite to the platform are in central symmetry and constitute one group, two branch hinges acted by F 1 and F 3 constitute one group, and generate angular displacement rotating around a z-axis along an anticlockwise direction, and two branch hinges acted by F 2 and F 4 constitute the other group, and generate angular displacement rotating around the z-axis along a clockwise direction. 5. The two-dimensional three-degree-of-freedom micro-motion platform structure for high-precision positioning and measurement according to claim 4 , wherein the forces F 1 , F 2 , F 3 , and F 4 are generated by driving a piezoelectric driver, act on the lever end of the L-shaped rigid beam, and are perpendicular to the L-shaped rigid beam.